Standard Details
Harmonic studies and analysis of industrial and commercial power systems are described. The basic concepts involved in such studies are described first. This is followed by a discussion of how to determine the need for a harmonic study, how to assemble the required data, how to recognize potential problems, and how to implement corrective measures.
Sponsor Committee | |
Status |
Active
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Board Approval |
2018-09-27
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History |
Published Date:2018-10-22
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Additional Resources Details
Pars |
Working Group Details
Working Group |
3002 WG - Power Systems Analysis
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Working Group Chair |
Farrokh Shokooh
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Sponsor Committee | |
Society | |
IEEE Program Manager | |
Existing Standards |
This recommended practice describes how to conduct motor-starting studies including design
considerations for new systems, analytical studies for existing systems as well as operational and model validation considerations for industrial and commercial power systems. Motor starting analysis includes motor starting current and voltage drop evaluation. Accuracy of calculation results primarily relies on system modeling assumptions and methods used. This recommended practice emphasizes the use of computer-aided analysis software with a list of desirable capabilities recommended to conduct a modern motor starting study. It also presents examples of system data requirements and presents result analysis techniques. This standard discusses benefits obtained from motor-starting studies and examines various types of computer-aided motor-starting studies. Data or information required for these studies as well as the expected results of a motor-starting study effort are also reviewed.
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Activities related to load flow analysis, including design considerations for new systems, analytical studies for existing systems, as well as operational and model validation considerations for industrial and commercial power systems are addressed. Load flow analysis includes steadystate power flow and voltage analysis along with considerations for optimal power flow calculations. The use of computer-aided analysis software, with a list of desirable capabilities recommended to conduct a modern load-flow study, is emphasized. Examples of system data requirements and result analysis techniques are presented.
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This recommended practice addresses activities related to short-circuit analysis, including design considerations for new systems, analytical studies for existing systems as well as operational and model validation considerations for industrial and commercial power systems. Short-circuit analysis includes fault current calculation and device duty evaluation. Accuracy of calculation results primarily relies on system modeling assumptions and methods used. This recommended practice emphasizes the use of computer-aided analysis software with a list of desirable capabilities recommended to conduct a modern short-circuit study.
It also presents examples of system data requirements and presents result analysis techniques.
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